enum dnnl_normalization_flags_t

Overview

Flags for normalization primitives. More…

#include <dnnl_types.h>

enum dnnl_normalization_flags_t
{
    dnnl_normalization_flags_none = 0x0U,
    dnnl_use_global_stats         = 0x1U,
    dnnl_use_scaleshift           = 0x2U,
    dnnl_fuse_norm_relu           = 0x4U,
    dnnl_use_scale                = 0x8U,
    dnnl_use_shift                = 0x10U,
};

Detailed Documentation

Flags for normalization primitives.

Enum Values

dnnl_normalization_flags_none

Use no normalization flags.

If specified

  • on forward training propagation mean and variance are computed and stored as output

  • on backward propagation compute full derivative wrt data

  • on backward propagation prop_kind == dnnl_backward_data has the same behavior as prop_kind == dnnl_backward

dnnl_use_global_stats

Use global statistics.

If specified

  • on forward propagation use mean and variance provided by user (input)

  • on backward propagation reduces the amount of computations, since mean and variance are considered as constants

If not specified:

  • on forward propagation mean and variance are computed and stored as output

  • on backward propagation compute full derivative wrt data

dnnl_use_scaleshift

Use scale and shift parameters.

If specified:

  • on forward propagation use scale and shift (aka scale and bias) for the normalization results

  • on backward propagation (for prop_kind == dnnl_backward) compute diff wrt scale and shift (hence one extra output used)

If no specified:

dnnl_fuse_norm_relu

Fuse with ReLU.

The flag implies negative slope being 0. On training this is the only configuration supported. For inference, to use non-zero negative slope consider using Primitive Attributes: Post-ops.

If specified:

  • on inference this option behaves the same as if the primitive were fused with ReLU using post ops API with zero negative slope.

  • on training primitive requires workspace (required to be able to perform backward pass)

dnnl_use_scale

Use scale parameter.

If specified:

  • on forward propagation use scale for the normalization results

  • on backward propagation (for prop_kind == dnnl_backward) compute diff wrt scale (hence one extra output used)

dnnl_use_shift

Use shift parameter.

If specified:

  • on forward propagation use shift (aka bias) for the normalization results

  • on backward propagation (for prop_kind == dnnl_backward) compute diff wrt shift (hence one extra output used)